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The ocean`s contribution to polar motion excitation - as many solutions as numerical models?
In: Plag, H.P. et al. (Eds.): Forcing of polar motion in the Chandler frequency band: A contribution to understanding interannual climate variations. Cahiers du Centre Europeen de Geodynamique et de Seismologie, Vol. 24, 143‑148, Luxembourg
2005
Towards a rigorous combination of VLBI and GPS using the CONT02 campaign
In: Sansò F. (Ed.) A Window on the Future of Geodesy, IAG Symposia
2005
128
576-581
Combination studies using the CONT02 campaign
In: Behrend D., Baver K. (Eds.) IVS 2004 Annual Report, 13-21
2005
Atmospheric forcing mechanisms of polar motion
In: Plag, H.P. et al. (Eds.): Forcing of polar motion in the Chandler frequency band: A contribution to understanding interannual climate variations. Cahiers du Centre Europeen de Geodynamique et de Seismologie, Vol. 24, 127‑133, Luxembourg
2005
White noise Chandler wobble excitation
In: Plag, H.P., et al. (Eds.): Forcing of polar motion in the Chandler frequency band: A contribution to understanding interannual climate variations. Cahiers du Centre Europeen de Geodynamique et de Seismologie, Vol. 24, 15‑21, Luxembourg
2005
Sensitivity analysis of the non-linear Liouville equation
In: Sanso F. (Ed.) A Window on the Future of Geodesy, IAG Symposia 128: 601-606, Springer, Berlin
2005
Atmospheric and oceanic influences on polar motion - numerical results from two independent model combinations
Artificial Satellites (40), 199‑215
2005
Atmospheric and oceanic contributions to Chandler wobble excitation determined by wavelet filtering
Journal of Geophysical Research 110(B11), B11406
2005
Vienna IGG Special Analysis Center Annual Report 2004
In: IVS Annual Report 2004, D. Behrend and K.D. Baver (Eds.), NASA/TP-2005-212772, 221-224
2005